Argument passing is defined by a calling convention from the system ABI (Application Binary Interface). Which ABI is in use depends on what target (os + hardware platform) you're compiling for. See for example the AMD64 ABI, which *nix uses (roughly, there are a few minor variants I believe).
The link you provided was to an article on the Microsoft x64 calling convention parameter passing. It notes:
__m128 are always passed by pointer, not by value
- the first four integers or pointers are always passed in
So given any function with only
__m128 arguments, up to four will pass as pointers in registers, and any others will pass as pointers on the stack. As Jason notes in another answer, these pointers will be pointing to values that are also likely on the stack.
__m128 & (and also
__m128 *) are likely equivalent in cost in the Microsoft x64 calling convention -- they all pass by pointer.
Reading through the AMD64 ABI, it looks as if the first 8 XMM registers (
%xmm8) are 128 bits wide and will take an
__m128 by value. So on systems that use the AMD64 ABI (e.g. gcc on linux), the first eight
__m128 args will end up in registers.
In this case, it might make sense to pass the 9th through 15th
__m128 args as references/pointers -- they could make use of the integer registers. This would avoid copying them to stack.
I'm not sure which convention gcc on windows (e.g. mingw) uses. Presumably it must use Microsoft x64 convention if it is interacting with other libraries.
If you're curious, though, I'd highly recommend performing a few experiments and looking at the disassembly -- gcc's
-S option is great for this! If you're in Visual Studio you can use the disassembly window in the debugger.
It's always good to be peaking under the hood a bit, even if you're not fully understanding what's going on. You'll start seeing patterns and can ask questions or research what you see.